Measuring and Simulating Cellular Flows during Spindle Positioning

Ehssan Nazockdast; Haiyin Wu; Daniel Needleman; Michael Shelley

Measuring and Simulating Cellular Flows during Spindle Positioning

ORAL

Abstract

A cell is a complex fluidic environment in which fundamental biological processes take place. One such process is the proper positioning and elongation of the mitotic spindle which is crucial for chromosome segregation and cell division, and involves the interaction of microtubule assemblies with motor-proteins and subcellular organelles. In a combined experimental and computational study, we use cytoplasmic flow measurements and computational fluid dynamics to argue that proper positioning is primarily achieved by the action of motor-proteins bound to the cell boundary.

Nov. 21, 2017, 10:13 AM – Nov. 21, 2017, 10:26 AM

Authors

Ehssan Nazockdast

University of North Carolina, Chapel Hill
Haiyin Wu

Harvard University
Daniel Needleman

Harvard University
Michael Shelley

Simons Foundation and New York University, Flatiron Institute, Flatiron Institute, NY and Courant Institute, NYU, Center for Computational Biology, Simons Foundation and Courant Institute of Mathematical Sciences, Center for Computational Biology, Simons Foundation and Courant Institute of Mathematical Sciences, New York University